论文信息 - Investigation of impedance controller for autonomous on-orbit servicing robot

Investigation of impedance controller for autonomous on-orbit servicing robot

The premise of this study is to demonstrate a simulation environment and basis that is used to evaluate the control methodologies employed to govern the behaviour of robotic manipulators (RM) in on-orbit autonomous capture. The capture itself is effected on non-cooperative targets in a zero gravity simulated environment. The RM employs a vision system, force sensors, and encoders to sense its environment. The control is effected through position and torque inputs to three stepper motors and three servo motors. The control strategy tested is a modified hybrid force/neural network impedance controller. This paper will demonstrate that impedance control can reliably control a robotic manipulator in an unknown environment.

P LaroucheBenoit | Z H ZhuGeorge | P. LaroucheBenoit | Z. H. ZhuGeorge

[1] Saïd Zeghloul,et al. Optimization of grasping forces in handling of brittle objects , 2009, Robotics Auton. Syst..

[2] Yu Liu,et al. Target berthing and base reorientation of free-floating space robotic system after capturing , 2009 .

[3] Vincenzo Lippiello,et al. Interaction Control of Robot Manipulators Using Force and Vision , 2008 .

[4] Liu Hong,et al. Adaptive Impedance-controlled Manipulator Based on Collision Detection , 2009 .

[5] Danwei Wang,et al. Learning impedance control for robotic manipulators , 1998, IEEE Trans. Robotics Autom..

[6] Fusaomi Nagata,et al. Position-based impedance control using a fuzzy compensator , 1999, 1999 Third International Conference on Knowledge-Based Intelligent Information Engineering Systems. Proceedings (Cat. No.99TH8410).

[7] An-Chyau Huang,et al. Adaptive Impedance Control of Robot Manipulators based on Function Approximation Technique , 2004, Robotica.